References

  1. V. Anto Feradrick Samson, K. Mohamed Racik, S. Prathap, J. Madhavan, M. Victor Antony Raj, Investigations of structural, optical and dielectric studies of copper oxide nanoparticles, Mater. Today Proc., 8 (2019) 386–392.
  2. S.E. Arasi, M.V.A. Raj, J. Madhavan, Impact of dysprosium (Dy3+) doping on size, optical and dielectric properties of titanium dioxide nanoparticles grown by low temperature hydrothermal method, J. Mater. Sci.: Mater. Electron., 29 (2018) 3170–3177.
  3. Q.M. Jebur, A. Hashim, M.A. Habeeb, Structural, electrical and optical properties for (polyvinyl alcohol–polyethylene oxide–magnesium oxide) nanocomposites for optoelectronics applications, Trans. Electr. Electron. Mater., 20 (2019) 334–343.
  4. M.I. Khan, M.N. Akhtar, N. Ashraf, J. Najeeb, H. Munir, T.I. Awan, M.B. Tahir, M.R. Kabli, Green synthesis of magnesium oxide nanoparticles using Dalbergia sissoo extract for photocatalytic activity and antibacterial efficacy, Appl. Nanosci., 10 (2020) 2351–2364.
  5. G. Balducci, L.B. Diaz, D.H. Gregory, Recent progress in the synthesis of nanostructured magnesium hydroxide, Cryst. Eng. Commun., 19 (2017) 6067–6084.
  6. K.D. Khalil, A.H. Bashal, M. Khalafalla, A.A. Zaki, Synthesis, structural, dielectric and optical properties of chitosan-MgO nanocomposite, J. Taibah Univ. Sci., 14 (2020) 975–983.
  7. M. Bindhu, M. Umadevi, M.K. Micheal, M.V. Arasu, N.A. Al-Dhabi, Structural, morphological and optical properties of MgO nanoparticles for antibacterial applications, Mater. Lett., 166 (2016) 19–22.
  8. B.M. Choudary, R.S. Mulukutla, K.J. Klabunde, Benzylation of aromatic compounds with different crystallites of MgO, J. Am. Chem. Soc., 125 (2003) 2020–2021.
  9. H.-L. Shuai, K.-J. Huang, W.-J. Zhang, X. Cao, M.-P. Jia, Sandwich-type microRNA biosensor based on magnesium oxide nanoflower and graphene oxide–gold nanoparticles hybrids coupling with enzyme signal amplification, Sens. Actuators, B, 243 (2017) 403–411.
  10. A. Shahsavar, S. Khanmohammadi, A. Karimipour, M. Goodarzi, A novel comprehensive experimental study concerned synthesizes and prepare liquid paraffin-Fe3O4 mixture to develop models for both thermal conductivity and viscosity: a new approach of GMDH type of neural network, Int. J. Heat Mass Transfer, 131 (2019) 432–441.
  11. Z.-X. Tang, B.-F. Lv, MgO nanoparticles as antibacterial agent: preparation and activity, Braz. J. Chem. Eng., 31 (2014) 591–601.
  12. M. Tlili, C. Nefzi, B. Alhalaili, C. Bouzidi, L. Ajili, N. Jebari, R. Vidu, N. Turki Kamoun, Synthesis and characterization of MgO thin films obtained by spray technique for optoelectronic applications, Nanomaterials, 11 (2021) 3076, doi: 10.3390/nano11113076.
  13. S.E.-D. Hassan, A. Fouda, E. Saied, M. Farag, A.M. Eid, M.G. Barghoth, M.A. Awad, M.F. Hamza, M.F. Awad, Rhizopus oryzae-mediated green synthesis of magnesium oxide nanoparticles (MgO-NPs): a promising tool for antimicrobial, mosquitocidal action, and tanning effluent treatment, J. Fungi, 7 (2021) 372, doi: 10.3390/jof7050372.
  14. F. Mahmoudi, F. Mahmoudi, K.H. Gollo, M.M. Amini, Biosynthesis of novel silver nanoparticles using Eryngium thyrsoideum Boiss extract and comparison of their antidiabetic activity with chemical synthesized silver nanoparticles in diabetic rats, Biol. Trace Elem. Res., 199 (2021) 1967–1978.
  15. A.A. Alrashed, O.A. Akbari, A. Heydari, D. Toghraie, M. Zarringhalam, G.A.S. Shabani, A.R. Seifi, M. Goodarzi, The numerical modeling of water/FMWCNT nanofluid flow and heat transfer in a backward-facing contracting channel, Phys. B: Condens., 537 (2018) 176–183.
  16. N. Rajput, Methods of preparation of nanoparticles – a review, Int. J. Adv. Eng. Technol., 7 (2015) 1806–1811.
  17. A. Tavakoli, M. Sohrabi, A. Kargari, A review of methods for synthesis of nanostructured metals with emphasis on iron compounds, Chem. Pap., 61 (2007) 151–170.
  18. J.-S. Park, W.-H. Chung, H.-S. Kim, Y.-B. Kim, Rapid fabrication of chemical-solution-deposited La0.6Sr0.4CoO3–δ thin films via flashlight sintering, J. Alloys Compd., 696 (2017) 102–108.
  19. C. Dupas, M. Lahmani, Nanoscience: Nanotechnologies and Nanophysics, Springer Science & Business Media, 2007.
  20. T.H.Y. Duong, T.N. Nguyen, H.T. Oanh, T.A. Dang Thi, L.N.T. Giang, H.T. Phuong, N.T. Anh, B.M. Nguyen, V. Tran Quang, G.T. Le, T.V. Nguyen, Synthesis of magnesium oxide nanoplates and their application in nitrogen dioxide and sulfur dioxide adsorption, J. Chem., 2019 (2019) 4376429, doi: 10.1155/2019/4376429.
  21. P.G. Jamkhande, N.W. Ghule, A.H. Bamer, M.G. Kalaskar, Metal nanoparticles synthesis: an overview on methods of preparation, advantages and disadvantages, and applications, J. Drug Delivery Sci. Technol., 53 (2019) 101174, doi: 10.1016/j.jddst.2019.101174.
  22. H. Pedersen, S.D. Elliott, Studying chemical vapor deposition processes with theoretical chemistry, Theor. Chem. Acc., 133 (2014) 1–10.
  23. J. Hasnidawani, H. Azlina, H. Norita, N. Bonnia, S. Ratim, E. Ali, Synthesis of ZnO nanostructures using sol-gel method, Procedia Chem., 19 (2016) 211–216.
  24. S. Landage, A. Wasif, P. Dhuppe, Synthesis of nanosilver using chemical reduction methods, Int. J. Adv. Eng. Appl. Sci., 3 (2014) 14–22.
  25. A. Karimipour, S.A. Bagherzadeh, M. Goodarzi, A.A. Alnaqi, M. Bahiraei, M.R. Safaei, M.S. Shadloo, Synthesized CuFe2O4/SiO2 nanocomposites added to water/EG: evaluation of the thermophysical properties beside sensitivity analysis and EANN, Int. J. Heat Mass Transfer, 127 (2018) 1169–1179.
  26. K. Gudikandula, S. Charya Maringanti, Synthesis of silver nanoparticles by chemical and biological methods and their antimicrobial properties, J. Exp. Nanosci., 11 (2016) 714–721.
  27. J. Singh, T. Dutta, K.-H. Kim, M. Rawat, P. Samddar, P. Kumar, ‘Green’ synthesis of metals and their oxide nanoparticles: applications for environmental remediation, J. Nanobiotechnol., 16 (2018) 1–24.
  28. M.L. Guimarães, F.A.G. da Silva, M.M. da Costa, H.P. de Oliveira, Green synthesis of silver nanoparticles using Ziziphus joazeiro leaf extract for production of antibacterial agents, Appl. Nanosci., 10 (2020) 1073–1081.
  29. M. Ovais, A.T. Khalil, A. Raza, N.U. Islam, M. Ayaz, M. Saravanan, M. Ali, I. Ahmad, M. Shahid, Z.K. Shinwari, Multifunctional theranostic applications of biocompatible green-synthesized colloidal nanoparticles, Appl. Microbiol. Biotechnol., 102 (2018) 4393–4408.
  30. M. Ayaz, M. Junaid, F. Ullah, F. Subhan, A. Sadiq, G. Ali, M. Ovais, M. Shahid, A. Ahmad, A. Wadood,
    Anti-Alzheimer’s studies on β-sitosterol isolated from Polygonum hydropiper L, Front. Pharmacol., 8 (2017) 697, doi: 10.3389/fphar.2017.00697.
  31. V. Makarov, A. Love, O. Sinitsyna, S. Makarova, I. Yaminsky, M. Taliansky, N. Kalinina, “Green” nanotechnologies: synthesis of metal nanoparticles using plants, Acta Nat., 6 (2014) 35–44.
  32. S.P. Fernández, C. Wasowski, L.M. Loscalzo, R.E. Granger, G.A. Johnston, A.C. Paladini, M. Marder, Central nervous system depressant action of flavonoid glycosides, Eur. J. Pharmacol., 539 (2006) 168–176.
  33. Y. Abdallah, S.O. Ogunyemi, A. Abdelazez, M. Zhang, X. Hong, E. Ibrahim, A. Hossain, H. Fouad, B. Li, J. Chen, The green synthesis of MgO nano-flowers using Rosmarinus officinalis L. (Rosemary) and the antibacterial activities against Xanthomonas oryzae pv. oryzae, Biomed Res. Int., 2019 (2019) 5620989, doi: 10.1155/2019/5620989.
  34. S.O. Ogunyemi, F. Zhang, Y. Abdallah, M. Zhang, Y. Wang, G. Sun, W. Qiu, B. Li, Biosynthesis and characterization of magnesium oxide and manganese dioxide nanoparticles using Matricaria chamomilla L. extract and its inhibitory effect on Acidovorax oryzae strain RS-2, Artif. Cells Nanomed. Biotechnol., 47 (2019) 2230–2239.
  35. G. Parihar, N. Balekar, Calotropis procera: a phytochemical and pharmacological review, Thai J. Pharm. Sci., 40 (2016) 115–131.
  36. A. Mushir, N. Jahan, A. Ahmed, A review on phytochemical and biological properties of Calotropis gigantea (Linn.) R.Br, Dis. Phytomed., 3 (2016) 15.
  37. M.A. Al Sulaibi, C. Thiemann, T. Thiemann, Chemical constituents and uses of Calotropis procera and Calotropis gigantea – a review (Part I – the plants as material and energy resources), Open Chem. J., 8 (2020) 1–15.
  38. P.K. Pattnaik, D. Kar, H. Chhatoi, S. Shahbazi, G. Ghosh, A. Kuanar, Chemometric profile and antimicrobial activities of leaf extract of Calotropis procera and Calotropis gigantea, Nat. Prod. Res., 31 (2017) 1954–1957.
  39. M.O. Barbosa, J.S. de Almeida-Cortez, S.I. da Silva, A.F.M. de Oliveira, Seed oil content and fatty acid composition from different populations of Calotropis procera (Aiton) WT Aiton (Apocynaceae), J. Am. Oil Chem. Soc., 91 (2014) 1433–1441.
  40. B.D. Wadhwani, D. Mali, P. Vyas, R. Nair, P. Khandelwal, A review on phytochemical constituents and pharmacological potential of Calotropis procera, RSC Adv., 11 (2021) 35854–35878.
  41. R. Gyawali, B. Bhattarai, S. Bajracharya, S. Bhandari, P. Bhetwal, K. Bogati, S. Neupane, S. Shrestha, A.K. Shrestha, R. Joshi, α-amylase inhibition, antioxidant activity and phytochemical analysis of Calotropis gigantea (L.) Dryand, J. Allied Health Sci., 10 (2020) 77–81.
  42. M.I. Din, A.G. Nabi, A. Rani, A. Aihetasham, M. Mukhtar, Single step green synthesis of stable nickel and nickel oxide nanoparticles from Calotropis gigantea: catalytic and antimicrobial potentials, Environ. Nanotechnol. Monit. Manage., 9 (2018) 29–36.
  43. R. Dobrucka, Synthesis of MgO nanoparticles using Artemisia abrotanum herba extract and their antioxidant and photocatalytic properties, Iran. J. Sci. Technol. Trans. A: Sci., 42 (2018) 547–555.
  44. L. Gharibshahi, E. Saion, E. Gharibshahi, A.H. Shaari, K.A. Matori, Structural and optical properties of Ag nanoparticles synthesized by thermal treatment method, Materials (Basel), 10 (2017) 402, doi: 10.3390/ma10040402.
  45. Z.-X. Tang, X.-J. Fang, Z.-L. Zhang, T. Zhou, X.-Y. Zhang, L.-E. Shi, Nanosize MgO as antibacterial agent: preparation and characteristics, Braz. J. Chem. Eng., 29 (2012) 775–781.
  46. A. Almontasser, A. Parveen, A. Azam, Synthesis, characterization and antibacterial activity of magnesium oxide (MgO) nanoparticles, IOP Conf. Ser.: Mater. Sci. Eng., 577 (2019) 012051,
    doi: 10.1088/1757-899X/577/1/012051.
  47. A. Pugazhendhi, R. Prabhu, K. Muruganantham, R. Shanmuganathan, S. Natarajan, Anticancer, antimicrobial and photocatalytic activities of green synthesized magnesium oxide nanoparticles (MgONPs) using aqueous extract of Sargassum wightii, J. Photochem. Photobiol., B, 190 (2019) 86–97.
  48. A. Fouda, S.E.-D. Hassan, E. Saied, M.F. Hamza, Photocatalytic degradation of real textile and tannery effluent using biosynthesized magnesium oxide nanoparticles (MgO-NPs), heavy metal adsorption, phytotoxicity, and antimicrobial activity, J. Environ. Chem. Eng., 9 (2021) 105346, doi: 10.1016/j. jece.2021.105346.
  49. J. Suresh, R. Yuvakkumar, M. Sundrarajan, S.I. Hong, Green synthesis of magnesium oxide nanoparticles, Adv. Mater. Res., 952 (2014) 141–144.
  50. M.I. Din, R. Khalid, Z. Hussain, Novel in-situ synthesis of copper oxide nanoparticle in smart polymer microgel for catalytic reduction of methylene blue, J. Mol. Liq., 358 (2022) 119181, doi: 10.1016/j.molliq.2022.119181.
  51. G. Liao, W. Zhao, Q. Li, Q. Pang, Z. Xu, Novel poly(acrylic acid)-modified tourmaline/silver composites for adsorption removal of Cu(II) ions and catalytic reduction of methylene blue in water, Chem. Lett., 46 (2017) 1631–1634.
  52. B.A. Abdulkadir, A. Ramli, L.J. Wei, Y. Uemura, Effect of MgO Loading on the production of biodiesel from Jatropha oil in the presence of MgO/MCM-22 Catalyst, J. Jpn. Inst. Eng., 97 (2018) 191–199.